A smart plan portal that is used in conjunction with a computer aided design (CAD) software application module. The smart plan portal provides a library of predesigned elements that are presented for selection and placement for building design. Each placed element automatically integrates with adjacent elements and the overall building design. Based on the building design using the library of elements, structural components and equipment components are generated. Each component is associated with a digital identifier that is used to identify a number of attributes for the associated component.
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1. A method for designing a structure, the method comprising:
receiving a selection of one or more predesigned elements and placement of the one or more predesigned elements on a designated geometric grid using a graphical user interface (GUI), wherein the GUI is configured to allow a user to select a unit and a first floor plan including the one or more predesigned elements and to allow the user to add the one or more predesigned elements to the geometric grid, wherein the unit is at least one of an apartment unit and an office suit predesigned using standardized structural components and wherein the GUI is further configured to allow the user to sort the predesigned elements by building type, unit type, number of bedrooms, square feet, and location of rooms;
integrating the selected and placed one or more predesigned elements with one or more adjacent elements on the designated geometric grid; and
identifying a location and position of a plurality of structural components based on the integrated one or more predesigned elements and the one or more adjacent elements, each of the plurality of structural components associated with a digital identification identifying at least the position and the location of the structural component relative to the designated geometric grid,
wherein integrating the selected and placed one or more predesigned elements with the one or more adjacent elements on the designated geometric grid further comprises identifying equipment layouts between the predesigned elements and the one or more adjacent elements and linking the equipment layouts between the predesigned elements and the one or more adjacent elements; and
extending the first floor plan to subsequent floors with the one or more predesigned elements including stairwell and elevator well without having to separately design each floor;
wherein the stairwell or elevator well cover two or more floors with two or more structural components including rails, risers, elevator box, lift components and electrical components.
7. One or more non-transitory readable storage media encoding processor-executable instructions for executing on a computer system a process comprising:
receiving a selection of one or more predesigned elements and placement of the one or more predesigned elements on a designated geometric grid using a graphical user interface (GUI), wherein the GUI is configured to allow a user to select a unit and a first floor plan including the one or more predesigned elements and to allow the user to add the one or more predesigned elements to the geometric grid, wherein the unit is at least one of an apartment unit and an office suit predesigned using standardized structural components and wherein the GUI is further configured to allow the user to sort the predesigned elements by building type, unit type, number of bedrooms, square feet, and location of rooms;
integrating the selected and placed one or more predesigned elements with one or more adjacent elements on the designated geometric grid; and
identifying a location and position of a plurality of structural components based on the integrated one or more predesigned elements and the one or more adjacent elements, each of the plurality of structural components associated with a digital identification identifying at least the position and the location of the structural component relative to the designated geometric grid,
wherein integrating the selected and placed one or more predesigned elements with the one or more adjacent elements on the designated geometric grid further comprises identifying equipment layouts between the predesigned elements and the one or more adjacent elements and linking the equipment layouts between the predesigned elements and the one or more adjacent elements; and
extending the first floor plan to subsequent floors with the one or more predesigned elements including stairwell and elevator well without having to separately design each floor;
wherein the stairwell or elevator well cover two or more floors with two or more structural components including rails, risers, elevator box, lift components and electrical components.
13. A system for designing a structure, the system comprising:
a library of elements providing one or more predesigned elements, each of the one or more predesigned elements presented for selection by a user;
a structural component conversion module configured to receive a selection and a placement of one or more of the predesigned elements on a designated geometric grid and to integrate the selected and placed one or more predesigned elements with one or more adjacent elements on the designated geometric grid;
a graphical user interface (GUI) configured to allow a user to select a unit and a first floor plan including the one or more predesigned elements and to allow the user to add the one or more predesigned elements to the geometric grid, wherein the unit is at least one of an apartment unit and an office suit predesigned using standardized structural components and wherein the GUI is further configured to allow the user to sort the predesigned elements by building type, unit type, number of bedrooms, square feet, and location of rooms; and
a geometric grid module configured to receive the designation of the geometric grid and identify a location and position of a plurality of structural components based on the integrated one or more predesigned elements and the one or more adjacent elements, each of the plurality of structural components associated with a digital identification identifying at least the position and the location of the structural component relative to the designated geometric grid, wherein the geometric grid module integrates the selected and placed one or more predesigned elements with one or more adjacent elements on the designated geometric grid by identifying shared structural components of the plurality of structural components based on a plurality of structural components included in the one or more predesigned elements and a plurality of structural components included in the one or more adjacent elements, the identifying be further based on a position and location of the one or more predesigned elements relative to the one or more adjacent elements and extend the first floor plan to subsequent floors with the one or more predesigned elements including stairwell and elevator well without having to separately design each floor; wherein the stairwell or elevator well cover two or more floors with two or more structural components including rails, risers, elevator box, lift components and electrical components.
2. The method of
identifying shared structural components of the plurality of structural components based on a plurality of structural components included in the one or more predesigned elements and a plurality of structural components included in the one or more adjacent elements, the identifying be further based on a position and location of the one or more predesigned elements relative to the one or more adjacent elements.
3. The method of
4. The method of
identifying one or more equipment components based on the identified and linked equipment layouts between the predesigned elements and the one or more adjacent elements; and
generating the digital identification for the identified one or more equipment components and associating the generated digital identification with the one or more identified equipment components, the digital identification for the identified one or more equipment components identifying at least the position and the location of the associated one or more equipment components relative to the designated geometric grid.
5. The method of
generating a hallway based on an identified spacing between the selected and placed one or more predesigned elements and the one or more adjacent elements, the generated one or more hallways including one or more of the plurality of structural components.
6. The method of
8. The one or more non-transitory readable storage media of
identifying shared structural components of the plurality of structural components based on a plurality of structural components included in the one or more predesigned elements and a plurality of structural components included in the one or more adjacent elements, the identifying be further based on a position and location of the one or more predesigned elements relative to the one or more adjacent elements.
9. The one or more non-transitory readable storage media of
10. The one or non-transitory readable storage media of
identifying one or more equipment components based on the identified and linked equipment layouts between the predesigned elements and the one or more adjacent elements; and
generating the digital identification for the identified one or more equipment components and associating the generated digital identification with the one or more identified equipment components, the digital identification for the identified one or more equipment components identifying at least the position and the location of the associated one or more equipment components relative to the designated geometric grid.
11. The one or more non-transitory readable storage media of
generating a hallway based on an identified spacing between the selected and placed one or more predesigned elements and the one or more adjacent elements, the generated one or more hallways including one or more of the plurality of structural components.
12. The one or more non-transitory readable storage media of
14. The system of
15. The system of
16. The system of
17. The system of
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The present application is a Non-Provisional patent application, which claims benefit of U.S. Provisional Application Ser. No. 62/469,986 entitled “SMART PLANS,” and filed on 10 Mar. 2017, which is incorporated herein by reference in its entirety.
Building information modeling (BIM) using computer aided design (CAD) software is an expensive and time consuming process. A user generally designs every aspect of a building including building units (e.g., apartment units, office suites, hotel room), structural components (e.g., columns, framing), equipment components (e.g., HVAC systems, plumbing). In some instances, equipment and/or structure may be designed on the fly at the building site.
This Summary is provided to introduce a selection of concepts in a simplified form that are further described below in the Detailed Description. This Summary is not intended to identify key features or essential features of the claimed subject matter, nor is it intended to be used to limit the scope of the claimed subject matter. Other features, details, utilities, and advantages of the claimed subject matter will be apparent from the following more particular written Detailed Description of various implementations and implementations as further illustrated in the accompanying drawings and defined in the appended claims.
The present application discloses smart plan portal that may be used in conjunction with a computer aided design (CAD) software application module for building information modeling (BIM). The smart plan portal provides a library of predesigned elements that are presented for selection and placement for building design. Each placed element automatically integrates with adjacent elements and the overall building design. Based on the building design using the library of elements, structural components and equipment components are generated. Each component is associated with a digital identifier that is used to identify a number of attributes for the associated component.
The system described herein provides a smart plan portal that may be used with computer aided design (CAD) software. Example CAD software includes Revit architectural design software from Autodesk. The portal provides a geometric grid-based building design system that allows a standardized predesigned library of elements (e.g., apartment units, office suites, retail spaces, structures, elevators, stairs) to be selected and placed on the geometric grid to create a building design. The building designed with the standardized library of elements may be converted to structural components (e.g., wall panels, framing members, trusses, floor panels, etc.). The smart plans system further allows equipment to be automatically imported into the building design based on the selected elements and arrangement of the elements. Such equipment includes HVAC systems, electrical components, plumbing, etc. The portal provides filterable viewing system that allows a user to view the building design (and predesigned elements) with specification detail layers such as structural components, selected elements, equipment, structure and mechanical coordination, plumbing, furniture, etc. The portal automatically provides the livable area, total area, number of units by unit type, etc. Thus, the portal provides a streamlined, efficient, user friendly, building design user interface and system.
The library of elements includes predesigned units such as apartment units and office suites, retail spaces, common areas, stairwells, elevators, etc. for any multiunit building type. The predesigned elements can be added to the geometric grid to create a building design. The predesigned elements are configured such that they automatically integrate with each other in the building design. As the building is designed using the smart plan portal, system and component bills of materials may be generated. The bill of materials is filterable based on material type, floor, unit type, etc. Financial models for manufacture of materials, installation of components, etc. may be automatically generated based on the building design. In some implementations, the smart plan portal is cloud based such as to allow remote collaboration in building design.
Outputs are generated based on the building design. Such outputs include, for example, a bill of materials, a materials list, 3-D Models, machine control files, shop drawings and specifications, etc. Furthermore, a digital identification is generated for each structural component and/or equipment component. The digital identification is a datastream that includes data that indicates the type of component, component material, component location and direction relative to the grid (e.g., xyz location), component attachments (e.g., components that the subject component connects to), etc. The machine control files may be transferred to roll forming machines, welding machines, robots, etc. to generate the structural components for the building design.
The user interfaces in the following figures are described with respect to a smart plans portal. It should be understood that the user interfaces are described for illustrative purposes and that other layouts of user interfaces may be implemented. Furthermore, the user interfaces are only parts of the overall smart plans portals. As such, certain user interfaces are excluded for illustrative purposes.
The geometric grid length A 106, width B 104, origin 114, and angle C 108 may be selected based on a real property area selected for the building. Furthermore, the geometric grid 102 may be composed of a number of standardized sized squares (e.g., a square 116). Such squares maybe 2 feet (ft.) by 2 ft., but it should be understood that the length and width of the squares may be greater or less than 2 ft. In some implementations, the geometric grid 102 is based on 1 inch (in.) by 1 in. squares or smaller squares (e.g., a smaller granularity). The geometric grid 102 is used to design a building. For example, pre-designed elements of the building such as units (e.g., apartment units, hotel rooms, office suites), structures (e.g., staircases), elevators, etc. are selected and placed on the geometric grid 102. After placement, the elements (and the element's constituent parts) may be referenced according to one or more geometric grid squares. For example, a wall of an apartment unit may be placed along an edge of one or more of the squares of the geometric grid 102. In other words, certain structural components (e.g., a wall panel) of elements are positioned relative to one or more squares of the geometric grid 102. The position, direction, etc. of each of the structural components and other components of a building design may be referenced according to the geometric grid squares and/or one or more lines of the geometric grid 102 The placement of elements relative to the geometric grid 102 may be extended through one or more floors of the building.
The view window 204 illustrates an example view of a Prescient Level type. The prescient level type includes partially illustrated layers of insulation 214 and 216, truss structure 218, and a wall pane 220. A user may pane and/or zoom in the view window 204 to view the different structural components of the floor type. After the user has configured the one or more levels of the building the user may select “OK” and start designing and adding elements to different levels of the building.
The elements in the library pane 302 are selectable such that an expanded view is shown in the view area 304. The user can select the element in the view area, zoom, and pane to view the element design. Furthermore, the unit shown in the view area 304 may be viewed such as to show different rooms, doors, appliances, electrical components, HVAC systems, structural components, etc. The elements are further selectable such that they can be added to the geometric grid (as shown in
A user can pan and zoom to observe different parts of the floor plan. Furthermore, different elements may be filtered and added. For example, the user may view the structural components making up the floor plan (e.g., wall panels, trusses, and floor panels). The user may further view and revise the equipment layout (e.g., HVAC, plumbing, and electrical), which is automatically generated based on the arrangement of the predesigned units. Furthermore, menus (not shown) provide the ability to view total floor area (e.g., in square ft.), total livable floor area, etc.
Using the smart portal system described, a listing of structural components required for the building design 902 may be generated using the smart plan portal (e.g., a bill of materials). Furthermore, the bill may be filtered and viewable based on different floors of the building design, component type, equipment type, etc. This allows the structural components for each floor to be manufactured and delivered separately. For example, the structural components for the first floor of the building design 902 may be manufactured and delivered to the building site first. While the first-floor structural components are being installed, the second-floor structural components may be manufactured and delivered upon completion of installation of the first floor, etc.
As the structural components are generated for the building design 902, digital identifications (IDs) are generated for each structural component and/or equipment component. The generated IDs may represent data such as component name, type, material, location and direction relative to the grid, adjacent component(s), how the adjacent component(s) is attached, etc.
In the various views, a user may select a component, such as water supply pipe 1014 to fixate center the current view on the select component. The user may the pan around the select component to view from various angles in 360 degrees. Furthermore, the user can zoom and out on the selected component. As such, the user can view how components integrate with other components.
The unit design 1302 may further include placement and positions of one or more equipment components (not shown) including sinks, toilets, showers, HVAC systems, waste drainage, electrical components (circuit breakers, wiring, outlets, lights, light switches, etc.) that may be integrated with the structural components such as the wall panels. Accordingly, the unit design 1302 includes structural components and equipment components in the design. When the unit design 1302 is positioned in a building design using the smart plans portal described herein, the unit design 1302 may be integrated with one or more adjacent unit designs. Such integration may include identifying shared wall panels, linking equipment components, etc. If an identified spacing exists between the placed unit design 1302 and an adjacent design, the smart plans portal may identify a hallway between the units and generate structural components (e.g., wall panels, trusses) for forming the hallway. Furthermore, a digital identification may be associated with the structural components and equipment components that includes information about placement, positioning, etc. of the structural component relative to a digital geometric grid associated with the building design.
The unit design 1406 may further include placement and positions of one or more equipment components (not shown) including sinks, toilets, showers, bathtubs, HVAC systems, waste drainage, electrical components (circuit breakers, wiring, outlets, lights, etc.) that may be integrated with the structural components such as the wall panels. Accordingly, the unit design 1406 includes structural components and equipment components in the design. When the unit design 1406 is positioned in a building design using the smart plans portal described herein, the unit design 1406 may be integrated with one or more adjacent unit designs. Such integration may include identifying shared wall panels, linking equipment components, etc. If an identified spacing exists between the placed unit design 1406 and an adjacent design, the smart plans portal may identify a hallway between the units and generate structural components (e.g., wall panels, trusses) for forming the hallway. Furthermore, a digital identification may be associated with the structural components and equipment components that includes information about placement, positioning, etc. of the structural component relative to a digital geometric grid associated with the building design.
Utilizing the three-dimensional view 1404 of the unit design 1406, a user may pan around, rotate, and filter the unit design 1506. Such filtering may include rendering solid walls transparent wall panels, equipment components, etc. may be viewed with respect to the unit design 1406. Varying levels of filtering layers may be utilized such as to view different combinations of components (e.g., structural components such as wall panels combined with HVAC systems). For example, a user may view the structural components (e.g., wall panels, trusses, framing) integrated with mechanical coordination (e.g., HVAC, pipes, electrical systems) In some example implementations, furniture diagrams may be included such as to view the unit design 1406 in three-dimensional view with transparent walls and furniture layouts.
A stairwell 1712 and an elevator well 1714 are also example predesigned units that may be provided by the smart plans portal. The stairwell 1712 and the elevator well 1714 designs may include necessary structures and components for creating the stairwell (e.g., rails, risers) and elevator well (e.g., elevator box, lift components, electrical components). These elements and components are automatically integrated with the components of the building structure when placed in the building design 1702. The stairwell 1712 and the elevator well 1714 may be extended to cover two or more floors. Thus, the stairwell 1712 and the elevator well 1714 may be integrated fully within the building designs 1702 structural model.
The three-dimension view 1800 further illustrates example furniture and fixture layouts of the integrated units 1802 and 1804. The furniture view is an example view selectable using the smart plans portal. In example implementations, the view may include various wall panels (not shown) that maybe transparent to view the interior furniture and fixtures. Example furniture includes a table set 1810, a bed 1812, and a cabinet layout 1814. Other furniture and fixture pieces are illustrated and contemplated. The furniture and fixture layouts may be included in the integrated units 18012 and 1804 as provided by the library of elements. Accordingly, the example furniture and fixture layouts may be viewed before the units are placed into a building design. The furniture and fixture layouts may further be viewed in a complete or partial building design.
The library of elements 1906 includes records that provide predesigned elements such as apartment units, office suites, stairwells, elevators, common areas, etc. Each element of the library of elements may be predesigned using standardized structural components (e.g., wall panels (framing members), trusses, columns, floor panels, etc.) and may include certain equipment component specifications. Such equipment component specifications may include HVAC system A/C unit and duct placement, water supply piping and placement, electrical system placement, etc. Elements may be added to the library of elements using the smart plans portal 1904 or the software module 1902. Furthermore, predesigned elements may be fetched from a remote source such as a cloud and/or remote database. In implementations, the library of elements 1906 is stored remotely such that a user may retrieve one or more elements using a network. The library of elements 1906 may be updated and managed by a remote administrator.
The system 1900 may include another database (not shown) that stores records of structural details for various standardized structural components and equipment components. These records may further include other characteristics of these components such as dimensions, lateral and vertical load bearing capacities, shear capacities, fastening components, etc.
The system includes a geometric gird module 1908 that uses one or more selected and placed predesigned elements. A designer generating a building design using the CAD software module 1902 with the smart plans portal 1904 may select to activate the grid module 1908. Alternatively, the grid module 1908 may be configured to be automatically activated when the CAD software module 1902 is active. As a user places one or more elements on the grid, certain components (e.g., walls) may snap to one or more lines of the geometric grids. The geometric grid module 1902 identifies coordinates for each component of the placed elements. A grid may be generated in each of x, y, and z planes. In some implementations, the geometric grid may be set up as a network of multiple grids at various angles to account for the angles typical in building designs. The geometric grid also allows the activation of several grids at various angles to one another to allow for the design of angled buildings, where active grids snap the components to precise grid coordinates.
The system 1900 includes a structural component conversion module 1910. The structural component conversion module receives a design file based on an arrangement of predesigned elements from the library of elements 1906. Because the elements of the library of elements are predesigned using one or more standardized structural components, the structural component conversion module 1910 generates structural components for the building design. The structural component conversion module accounts for one or more shared components between one or more elements. For example, if two predesigned apartment units are placed adjacent to each other, the structural component conversion module 1910 accounts for one or more shared wall panels and/or framing members.
The system 1900 includes an equipment generation module 1912. The equipment generation module 1912 receives a design file and or structural component file generated based on the placement of one or more predesigned elements and generates an equipment configuration. For example, the equipment specifications of each of the one or more predesigned elements (e.g., apartment units) are determined and equipment specifications for the building design is generated. In a specific example, if two predesigned apartment units are positioned adjacent to each other in a design file, a shared water supply pipe may be generated such that each apartment unit may share the water supply. It should be understood that equipment specifications may be generated for HVAC systems, electrical systems, drainage system etc. for a single floor of a building design and multiple floors of the building design.
The system 1900 also includes an output module 1914 that allows a user to generate various outputs 1916 based on the outputs of the various modules and one or more design files. The output module 1914 may be used at various stages of building design. For example, certain outputs may be generated after a first floor of a building is designed using the predesigned library of elements 1906. At this example stage, outputs may be generated that show the number and/or types of units of the first floor, the total area of livable/non-livable space, of the first floor, various component listings, etc.
The output module 1914 is configured to generate a bill of materials 1918, that lists numbers and types of various structural and/or equipment components. The bill of materials 1918 may further include a listing of fastening screws, bolts, studs, etc. required for the building structure. The bill of materials 1918 is filterable and sortable by floor, component type, etc.
The output module 1916 may also generate three-dimensional model 1920 of the building structure. In some implementations, such 3D models 1920 are dynamically updated such that as the construction or the design of the building progresses, the 3D model 1920 is also updated. The 3D models 1920 may identify and display various structural and equipment components of the building structure. In some implementations, the output module 1914 generates output files s for project engineering review and approval.
The output module 1916 may also generate digital identifications 1922 of various components. Such digital identifications 1922 may include data that describes the component type, material, location and direction relative to one or more lines of the geometric grid(s), adjacent components, connection mechanisms to adjacent components, etc. The data may be referenced or retrieved using generated QR codes that may be placed on the components after such components are manufactured. The QR codes may be utilized in the construction stage to retrieve the encoded data and use the data by engineers in the construction of the building (e.g., how to attach a subject component to another component).
The output module 1916 may also generate machine control files 1924 or macro files that can be used to control various machines used to manufacture structural and equipment components. For example, the machine control files 1924 generated by the output module 1914 may be used to control various light gauge roll forming machines that produce track and stud elements for wall panels and trusses. The output module 1916 also generates shop drawings and specifications 1926 that can be used by the project design team, engineers, and building department.
A receiving operation 2008 receives selection and placement of one or more design elements on the grid. For example, a user drags and drops a number of provided apartment units onto the grid. The units may snap to various lines or squares of the grid according to the placement. Furthermore, when units or other elements are placed adjacent to another element, then the units are automatically integrated (e.g., shared walls are generated). Furthermore, hallways are automatically recognized and generated based on the arrangement. An extending operation 2010 extends the one or more design elements to subsequent floors. For example, a user designs a first floor with an arrangement of various apartment units. The first-floor design may be extended to the second and third floor. It should be understood that each floor may be separately designed. A receiving operation 2012 receives selection and placement of one or more stair cases and/or elevators. After the user designs two or more floors, the user may place a predesigned staircase and/or elevator into a designated space. The predesigned staircase and elevator automatically integrate with components of the predesign elements (e.g., apartment units, common areas, etc.).
A first generating operation 2014 generates structural components based on the building design. The arrangement of the predesigned elements that are based on standardized components (e.g., wall panels, trusses, etc.) may be used to generate the structural components. The structural components may have an associated digital identifier that may be used to generate various attributes of the structural component. For example, the digital identifier may include data that recognizes the component type, position relative to the grid, material, shape, weight, connection mechanisms, etc. A second generating operation 2016 generates equipment components based on the building design. The arrangement of predesigned elements that may have equipment specifications (e.g., HVAC units, water supply pipes, etc.) are used to generate equipment components for each floor and the entire building.
A third generating operation 2020 generates one or more outputs. Such outputs may include 3D models that are displayed on a user interface. Such displayed models may be filterable to illustrate various structural components or equipment components, or finished designs (e.g., showing finished building with drywall, furniture, appliances, etc.). Other generated outputs include bills of material, shop and specification drawings, machine control or macro files, etc. The digital identifier for the structural components and equipment components may also be generated.
A receiving operation 2108 receives selection and placement of one or more design elements on the grid next to an adjacent design element. An identifying operation 2110 identifies any shared structural components between the placed design element and the adjacent design elements. For example, the identifying operation 2110 may identifies shared walls, framing members, columns, etc. A second identifying operation 2112 identifies equipment layouts of the design element and the adjacent design element. For example, the second identifying operation 2112 may identify HVAC system components, electrical components, water supplies, waste drain locations, etc. A determining operation 2114 determines whether to connect the equipment layouts between the design element and the adjacent design element. For example, the determining operation 2114 may determine that waste drains or electrical are connectable. An identifying operation 2116 identifies an optimal equipment layout based on one or more equipment layout rules. A generating operation 2116 generates hallway structures based on spacing between the design element and the adjacent design element. The hallway structure may include trusses, walls, equipment components (e.g., lighting), etc.
The I/O section 2204 may be connected to one or more user-interface devices (e.g., a keyboard, a touch-screen display unit 2218, etc.) or a disc storage unit 2212. Computer program products containing mechanisms to effectuate the systems and methods in accordance with the described technology may reside in the memory section 2204 or on the storage unit 2212 of such a system 2200.
A communication interface 2224 is capable of connecting the computer system 2200 to an enterprise network via the network link 2214, through which the computer system can receive instructions and data embodied in a carrier wave. When used in a local area networking (LAN) environment, the processing system 2200 is connected (by wired connection or wirelessly) to a local network through the communication interface 2224, which is one type of communications device. When used in a wide-area-networking (WAN) environment, the processing system 2200 typically includes a modem, a network adapter, or any other type of communications device for establishing communications over the wide area network. In a networked environment, program modules depicted relative to the processing system 2200 or portions thereof, may be stored in a remote memory storage device. It is appreciated that the network connections shown are examples of communications devices for and other means of establishing a communications link between the computers may be used.
In an example implementation, a user interface software module, a communication interface, an input/output interface module and other modules may be embodied by instructions stored in memory 2208 and/or the storage unit 2212 and executed by the processor 2202. Further, local computing systems, remote data sources and/or services, and other associated logic represent firmware, hardware, and/or software, which may be configured to assist in building design, model generation, and component generation. A smart plans portal system may be implemented using a general-purpose computer and specialized software (such as a server executing service software), a special purpose computing system and specialized software (such as a mobile device or network appliance executing service software), or other computing configurations. In addition, data, such as elements, component data, rules, machine learning data and system optimization parameters may be stored in the memory 2208 and/or the storage unit 2212 and executed by the processor 2202.
The implementations of the invention described herein are implemented as logical steps in one or more computer systems. The logical operations of the present invention are implemented (1) as a sequence of processor-implemented steps executed in one or more computer systems and (2) as interconnected machine or circuit modules within one or more computer systems. The implementation is a matter of choice, dependent on the performance requirements of the computer system implementing the invention. Accordingly, the logical operations making up the implementations of the invention described herein are referred to variously as operations, steps, objects, or modules. Furthermore, it should be understood that logical operations may be performed in any order, adding and omitting as desired, unless explicitly claimed otherwise or a specific order is inherently necessitated by the claim language.
Data storage and/or memory may be embodied by various types of storage, such as hard disk media, a storage array containing multiple storage devices, optical media, solid-state drive technology, ROM, RAM, and other technology. The operations may be implemented in firmware, software, hard-wired circuitry, gate array technology and other technologies, whether executed or assisted by a microprocessor, a microprocessor core, a microcontroller, special purpose circuitry, or other processing technologies. It should be understood that a write controller, a storage controller, data write circuitry, data read and recovery circuitry, a sorting module, and other functional modules of a data storage system may include or work in concert with a processor for processing processor-readable instructions for performing a system-implemented process.
For purposes of this description and meaning of the claims, the term “memory” (e.g., memory 2208) means a tangible data storage device, including non-volatile memories (such as flash memory and the like) and volatile memories (such as dynamic random access memory and the like). The computer instructions either permanently or temporarily reside in the memory, along with other information such as data, virtual mappings, operating systems, applications, and the like that are accessed by a computer processor to perform the desired functionality. The term “memory” or “storage medium” expressly does not include a transitory medium such as a carrier signal, but the computer instructions can be transferred to the memory wirelessly.
The above specification, examples, and data provide a complete description of the structure and use of exemplary implementations of the invention. Since many implementations of the invention can be made without departing from the spirit and scope of the invention, the invention resides in the claims hereinafter appended. Furthermore, structural features of the different implementations may be combined in yet another implementation without departing from the recited claims. While embodiments and applications of this invention have been shown, and described, it would be apparent to those skilled in the art having the benefit of this disclosure that many more modifications than mentioned above are possible without departing from the inventive concepts herein. The invention, therefore, is not to be restricted except in the spirit of the appended claims.
Vanker, John Louis, Lastowski, Michael J.
Patent | Priority | Assignee | Title |
11604905, | Dec 08 2021 | Tiver Built LLC | Smart render design tool and method |
Patent | Priority | Assignee | Title |
8260628, | Jan 17 2003 | UNILOC 2017 LLC | Automated pricing and/or “green” indicating method and system |
20070174027, | |||
20080275673, | |||
20100198563, | |||
20120221986, | |||
20130024797, | |||
20130185026, | |||
20150248504, | |||
20160179342, | |||
20160210377, | |||
20160210569, | |||
20170132568, | |||
20170256097, | |||
20180075168, | |||
EP2113616, | |||
WO2010000017, | |||
WO20160138531, |
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